Open Access Open Access  Restricted Access Subscription Access

Magmatic Ni–Cu–Fe sulphide mineralization from the Halaguru area, Eastern Dharwar Craton, southern India


Affiliations
1 Department of Geology, Institute of Science, Banaras Hindu University, Varanasi 221 005, India, India
2 Geological Survey of India, Bengaluru 560 078, India, India
 

Here we report sulphide mineralization in a spinel-bear­ing orthopyroxene hornblendite from the Halaguru area, Eastern Dharwar Craton (EDC), southern India. The hornblendite contains approximately 3% olivine, 38% orthopyroxene, 56% amphibole and 2% oxide/sulphide phases. Petrographic and mineral chemistry studies show its formation as a result of the reaction between early formed olivine and hydrous silicate melt without any metamorphic imprint, despite its proximity to amphibolites–granulite isograd in the EDC. The sulphides comprise the disseminated form of pyrrhotite–pentlandite–chalcopyrite assemblage, which is well crystallized and the primary magmatic features are preserved as contact and granular textures. Absence of crustal xenoliths and lower SiO2 (48 wt%), Sr (35 ppm), Pb (<5 ppm), U (<0.1 ppm) and Th (0.10 ppm) content coupled with higher Mg# (~82), Ni (700 ppm), Cr (2500 ppm) concentration in the bulk sample rules out the possibility of sulphide saturation by the addition of crustal-derived sulphur. Based on the combined textural and compositional criteria, the pyrrhotite–pentlandite–chalcopyrite assemblage is a product of the cooling and crystallization of immiscible sulphide globules. The initial high monosulphide solution, upon cooling, exsolves to pyrrhotite and pentlandite and later, at lower temperature, intermediate sulphide solid solution gives rise to chalcopyrite which is dominantly present around the edges of the pyrrhotite–pentlan­dite assemblage.
User
Notifications
Font Size

Abstract Views: 285

PDF Views: 147




  • Magmatic Ni–Cu–Fe sulphide mineralization from the Halaguru area, Eastern Dharwar Craton, southern India

Abstract Views: 285  |  PDF Views: 147

Authors

Sneha Raghuvanshi
Department of Geology, Institute of Science, Banaras Hindu University, Varanasi 221 005, India, India
N. V. Chalapathi Rao
Department of Geology, Institute of Science, Banaras Hindu University, Varanasi 221 005, India, India
Ajit K. Sahoo
Department of Geology, Institute of Science, Banaras Hindu University, Varanasi 221 005, India, India
Debojit Talukdar
Geological Survey of India, Bengaluru 560 078, India, India

Abstract


Here we report sulphide mineralization in a spinel-bear­ing orthopyroxene hornblendite from the Halaguru area, Eastern Dharwar Craton (EDC), southern India. The hornblendite contains approximately 3% olivine, 38% orthopyroxene, 56% amphibole and 2% oxide/sulphide phases. Petrographic and mineral chemistry studies show its formation as a result of the reaction between early formed olivine and hydrous silicate melt without any metamorphic imprint, despite its proximity to amphibolites–granulite isograd in the EDC. The sulphides comprise the disseminated form of pyrrhotite–pentlandite–chalcopyrite assemblage, which is well crystallized and the primary magmatic features are preserved as contact and granular textures. Absence of crustal xenoliths and lower SiO2 (48 wt%), Sr (35 ppm), Pb (<5 ppm), U (<0.1 ppm) and Th (0.10 ppm) content coupled with higher Mg# (~82), Ni (700 ppm), Cr (2500 ppm) concentration in the bulk sample rules out the possibility of sulphide saturation by the addition of crustal-derived sulphur. Based on the combined textural and compositional criteria, the pyrrhotite–pentlandite–chalcopyrite assemblage is a product of the cooling and crystallization of immiscible sulphide globules. The initial high monosulphide solution, upon cooling, exsolves to pyrrhotite and pentlandite and later, at lower temperature, intermediate sulphide solid solution gives rise to chalcopyrite which is dominantly present around the edges of the pyrrhotite–pentlan­dite assemblage.


DOI: https://doi.org/10.18520/cs%2Fv122%2Fi11%2F1288-1297